A New Framework: The Smart City
So, what exactly is a smart city? A smart city is an urban center that hosts a wide range of digital technology across its ecosystem. However, smart cities go far beyond just this definition.

Smart cities use technology to better population’s living experiences, operating as one big data-driven ecosystem.

The smart city uses that data from the people, vehicles, buildings etc. to not only improve citizens lives but also minimize the environmental impact of the city itself, constantly communicating with itself to maximize efficiency.

So what are some of the crucial components of the future smart city? Here is what you should know.

So when Google ultimately retired Glass, it was in reaction to an important act of line drawing. It was an admission of defeat not by design, but by culture.

These kinds of skirmishes on the front lines of surveillance might seem inconsequential — but they can not only change the behavior of tech giants like Google, they can also change how we’re protected under the law. Each time we invite another device into our lives, we open up a legal conversation over how that device’s capabilities change our right to privacy. To understand why, we have to get wonky for a bit, but it’s worth it, I promise.

But where many people see Google Glass as a cautionary tale about tech adoption failure, I see a wild success. Not for Google of course, but for the rest of us. Google Glass is a story about human beings setting boundaries and pushing back against surveillance…

IN THE UNITED States, the laws that dictate when you can and cannot record someone have a several layers. But most of these laws were written when smartphones and digital home assistants weren’t even a glimmer in Google’s eye. As a result, they are mostly concerned with issues of government surveillance, not individuals surveilling each other or companies surveilling their customers. Which means that as cameras and microphones creep further into our everyday lives, there are more and more legal gray zones.

From DSC:We need to be aware of the emerging technologies around us. Just because we can, doesn’t mean we should. People need to be aware of — and involved with — which emerging technologies get rolled out (or not) and/or which features are beneficial to roll out (or not).

One of the things that’s beginning to alarm me these days is how the United States has turned over the keys to the Maserati — i.e., think an expensive, powerful thing — to youth who lack the life experiences to know how to handle such power and, often, the proper respect for such power. Many of these youthful members of our society don’t own the responsibility for the positive and negative influences and impacts that such powerful technologies can have.

If you owned the car below, would you turn the keys of this ~$137,000+ car over to your 16-25 year old? Yet that’s what American has been doing for years. And, in some areas, we’re now paying the price.

The corporate world continues to discard the hard-earned experience that age brings…as they shove older people out of the workforce. (I hesitate to use the word wisdom…but in some cases, that’s also relevant/involved here.) Then we, as a society, sit back and wonder how did we get to this place?

Even technologists and programmers in their 20’s and 30’s are beginning to step back and ask…WHY did we develop this application or that feature? Was it — is it — good for society? Is it beneficial? Or should it be tabled or revised into something else?

Below is but one example — though I don’t mean to pick on Microsoft, as they likely have more older workers than the Facebooks, Googles, or Amazons of the world. I fully realize that all of these companies have some older employees. But the youth-oriented culture in American today has almost become an obsession — and not just in the tech world. Turn on the TV, check out the new releases on Netflix, go see a movie in a theater, listen to the radio, cast but a glance at the magazines in the check out lines, etc. and you’ll instantly know what I mean.

In the workplace, there appears to be a bias against older employees as being less innovative or tech-savvy — such a perspective is often completely incorrect. Go check out LinkedIn for items re: age discrimination…it’s a very real thing. But many of us over the age of 30 know this to be true if we’ve lost a job in the last decade or two and have tried to get a job that involves technology.

On Thursday, the American Civil Liberties Union provided a good reason for us to think carefully about the evolution of facial-recognition technology. In a study, the group used Amazon’s (AMZN) Rekognition service to compare portraits of members of Congress to 25,000 arrest mugshots. The result: 28 members were mistakenly matched with 28 suspects.

The ACLU isn’t the only group raising the alarm about the technology. Earlier this month, Microsoft (MSFT) president Brad Smith posted an unusual plea on the company’s blog asking that the development of facial-recognition systems not be left up to tech companies.

Saying that the tech “raises issues that go to the heart of fundamental human rights protections like privacy and freedom of expression,” Smith called for “a government initiative to regulate the proper use of facial recognition technology, informed first by a bipartisan and expert commission.”

Meredith Whittaker , AI Now Institute, New York University, Google Open Research
Kate Crawford , AI Now Institute, New York University, Microsoft Research
Roel Dobbe , AI Now Institute, New York University
Genevieve Fried , AI Now Institute, New York University
Elizabeth Kaziunas , AI Now Institute, New York University
Varoon Mathur , AI Now Institute, New York University
Sarah Myers West , AI Now Institute, New York University
Rashida Richardson , AI Now Institute, New York University
Jason Schultz , AI Now Institute, New York University School of Law
Oscar Schwartz , AI Now Institute, New York University

With research assistance from Alex Campolo and Gretchen Krueger (AI Now Institute, New York University)

Excerpt (emphasis DSC):

Building on our 2016 and 2017 reports, the AI Now 2018 Report contends with this central problem, and provides 10 practical recommendationsthat can help create accountability frameworks capable of governing these powerful technologies.

Governments need to regulate AI by expanding the powers of sector-specific agencies to oversee, audit, and monitor these technologies by domain.

Facial recognition and affect recognition need stringent regulation to protect the public interest.

The AI industry urgently needs new approaches to governance. As this report demonstrates, internal governance structures at most technology companies are failing to ensure accountability for AI systems.

AI companies should waive trade secrecy and other legal claims that stand in the way of accountability in the public sector.

Technology companies must go beyond the “pipeline model” and commit to addressing the practices of exclusion and discrimination in their workplaces.

Fairness, accountability, and transparency in AI require a detailed account of the “full stack supply chain.”

More funding and support are needed for litigation, labor organizing, and community participation on AI accountability issues.

University AI programs should expand beyond computer science and engineering disciplines.AI began as an interdisciplinary field, but over the decades has narrowed to become a technical discipline. With the increasing application of AI systems to social domains, it needs to expand its disciplinary orientation. That means centering forms of expertise from the social and humanistic disciplines. AI efforts that genuinely wish to address social implications cannot stay solely within computer science and engineering departments, where faculty and students are not trained to research the social world. Expanding the disciplinary orientation of AI research will ensure deeper attention to social contexts, and more focus on potential hazards when these systems are applied to human populations.

As we discussed, this technology brings important and even exciting societal benefits but also the potential for abuse. We noted the need for broader study and discussion of these issues. In the ensuing months, we’ve been pursuing these issues further, talking with technologists, companies, civil society groups, academics and public officials around the world. We’ve learned more and tested new ideas. Based on this work, we believe it’s important to move beyond study and discussion. The time for action has arrived.

We believe it’s important for governments in 2019 to start adopting laws to regulate this technology. The facial recognition genie, so to speak, is just emerging from the bottle. Unless we act, we risk waking up five years from now to find that facial recognition services have spread in ways that exacerbate societal issues. By that time, these challenges will be much more difficult to bottle back up.

In particular, we don’t believe that the world will be best served by a commercial race to the bottom, with tech companies forced to choose between social responsibility and market success. We believe that the only way to protect against this race to the bottom is to build a floor of responsibility that supports healthy market competition. And a solid floor requires that we ensure that this technology, and the organizations that develop and use it, are governed by the rule of law.

From DSC:This is a major heads up to the American Bar Association (ABA), law schools, governments, legislatures around the country, the courts, the corporate world, as well as for colleges, universities, and community colleges. The pace of emerging technologies is much faster than society’s ability to deal with them!

The ABA and law schools need to majorly pick up their pace — for the benefit of all within our society.

Chegg Math Solver is an AI-driven tool to help the student understand math. It is more than just a calculator – it explains the approach to solving the problem. So, students won’t just copy the answer but understand and can solve similar problems at the same time. Most importantly,students can dig deeper into a problem and see why it’s solved that way. Chegg Math Solver.

In every subject, there are many key concepts and terms that are crucial for students to know and understand. Often it can be hard to determine what the most important concepts and terms are for a given subject, and even once you’ve identified them you still need to understand what they mean.To help you learn and understand these terms and concepts, we’ve provided thousands of definitions, written and compiled by Chegg experts. Chegg Definition.

From DSC:I see this type of functionality as a piece of a next generation learning platform — a piece of the Living from the Living [Class] Room type of vision. Great work here by Chegg!

Likely, students will also be able to take pictures of their homework, submit it online, and have that image/problem analyzed for correctness and/or where things went wrong with it.

Journalism in the U.S. faces a number of challenges that blockchain technology has the potential to address and possibly solve — if the technology actually can achieve what it promises.

2018 itself has seen journalism move into uncharted waters as the industry comes up against issues, stemming from the continued digital migration of news organizations.

Because blockchain functions as a platform to facilitate peer-to-peer transactions, there are a few news organizations that believe blockchain technology finally will enable micropayments to be widely adopted in the U.S.

Alongside Geoff Hinton and Yann LeCun, Bengio is famous for championing a technique known as deep learning that in recent years has gone from an academic curiosity to one of the most powerful technologies on the planet.

Deep learning involves feeding data to large neural networks that crudely simulate the human brain, and it has proved incredibly powerful and effective for all sorts of practical tasks, from voice recognition and image classification to controlling self-driving cars and automating business decisions.

Bengio has resisted the lure of any big tech company. While Hinton and LeCun joined Google and Facebook, respectively, he remains a full-time professor at the University of Montreal. (He did, however, cofound Element AI in 2016, and it has built a very successful business helping big companies explore the commercial applications of AI research.)

What do you make of the idea that there’s an AI race between different countries?

I don’t like it. I don’t think it’s the right way to do it.

We could collectively participate in a race, but as a scientist and somebody who wants to think about the common good, I think we’re better off thinking about how to both build smarter machines and make sure AI is used for the well-being of as many people as possible.

Ever wish you could step into a hot air balloon, travel back in time to 320 A.D., and soar over the streets of Ancient Rome? Well, that oddly specific fantasy is achievable in a new virtual reality experience called “Rome Reborn.”

The ambitious undertaking, painstakingly built by a team of 50 academics and computer experts over a 22-year period, recreates 7,000 buildings and monuments scattered across a 5.5 square mile stretch of the famed Italian city. The project, according to Tom Kington of the Times, is being marketed as the largest digital reconstruction of Rome to date.

While the application of VR to core academics remains nascent, early returns are promising: research now suggests students retain more information and can better synthesize and apply what they have learned after participating in virtual reality exercises.

And the technology is moving within the reach of classroom teachers. While once considered high-end and cost-prohibitive, virtual reality is becoming more affordable. Discovery VR and Google Expeditions offer several virtual reality experiences for free. Simple VR viewers now come in relatively low-cost DIY cardboard view boxes, like Google Cardboard, that fit a range of VR-capable smartphones.
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Still, teachers may remain unsure of how they might implement such cutting-edge technology in their classrooms. Their concerns are well founded. Virtual reality takes careful planning and implementation for success. It’s not simply plug-and-play technology. It also takes a lot of work to develop.

See the results of a months-long effort to create a HoloLens experience that pays homage to Mont-Saint-Michel, in Normandy, France, in all its forms – as a physical relief map and work of art; as a real place visited by millions of people over the centuries; and as a remarkable digital story of resilience. In this three-part Today in Technology series, they examine how AI and mixed reality can open a new window into French culture by using technology like HoloLens.

There’s been a number of efforts over the last few years to legislate or provide a legal response to matters of cybersecurity. Part 1 of this article takes a look at recent efforts by California. This article examines the national attempts to legislate these poorly secured connected devices.

The global market for Internet of Things (IoT) technology, which consists of software, services, connectivity, and devices, reached $130 billion in 2018, and is projected to reach $318 billion by 2023, at a compound annual growth rate (CAGR) of 20 per cent, according to GlobalData.

GlobalData forecasts show that solutions for government, utilities and manufacturing dominate the market, with a total of 58 per cent of the opportunity in 2018 and a slighter smaller 55 per cent of the market in 2023, as others such as travel and leisure and retail grow their respective shares. Energy and transportation are other major verticals, with a combined 15 per cent of the market in both 2018 and 2023.

Also see:

As digital technology pervades the utility industry so too does the risk of cyber attacks— from by which-50.com by Joseph BrookesExcerpt:
Smart metres and IoT have the potential to optimise performance and maintenance of the billions of dollars worth of infrastructure in Australian utilities. But each new device creates a potential access point to systems that are not designed with cyber security in mind and, in some cases, are already exposed.